Slideshare uses cookies to improve functionality and performance, and to provide you with relevant advertising. If you continue browsing the site, you agree to the use of cookies on this website. See our User Agreement and Privacy Policy.

Slideshare uses cookies to improve functionality and performance, and to provide you with relevant advertising. If you continue browsing the site, you agree to the use of cookies on this website. See our Privacy Policy and User Agreement for details.

Wireless charging of mobile phone using microwaves

1.
INTRODUCTION
 The main objective of this current proposal is to make the recharging
of the mobile phones independent of their manufacturer and battery
make.
 In this paper a new proposal has been made so as to make the
recharging of the mobile phones is done automatically as you talk in
your mobile phone!
 The microwave signal is transmitted from the transmitter along with
the message signal using special kind of antennas called slotted
wave guide antenna at a frequency is 2.45 GHz

3.
WHY MICROWAVE
 Microwaves are good for transmitting information from
one place to another
 It is because microwave energy can penetrate haze, light
rain and snow, clouds, and smoke.
 Shorter microwaves are used in remote sensing.

6.
MAGNETRON
The magnetron is called a "crossed-field" device in
the industry because both magnetic and
electric fields are employed in its operation, and
they are produced in perpendicular directions so
that they cross.
The applied magnetic field is constant and applied
along the axis of the circular device illustrated. The
power to the device is applied to the center cathode
which is heated to supply energetic electrons which
would, in the absence of the magnetic field, tend to
move radially outward to the ring anode which
surrounds it.

7.
WORKING
Electrons are released at the center hot cathode by the process of
thermionic emission and have an accelerating field which moves them
outward toward the anode.
The axial magnetic field exerts a magnetic force on these charges which
is perpendicular to their initially radial motion, and they tend to be
swept around the circle. In this way, work is done on the charges and
therefore energy from the power supply is given to them.
As these electrons sweep toward a point where there is excess negative
charge, that charge tends to be pushed back around the cavity, imparting
energy to the oscillation at the natural frequency of the cavity.
This driven oscillation of the charges around the cavities leads to
radiation of electromagnetic waves, the output of the magnetron.

8.
THE SLOTTED WAVEGUIDE ANTENNA
 A slotted waveguide is a waveguide that is used as an antenna in
microwave radar applications..
 The slotted waveguide antenna consists of 8 waveguide sections
with 8 slots on each section. These 64 slots radiate the power
uniformly through free space to the rectenna. The slotted
waveguide antenna is ideal for power transmission because of its
high aperture efficiency (> 95%) and high power handling
capability.

9.
RECEIVER SECTION
The basic addition to the mobile phone is going to be the rectenna. A
rectenna is a rectifying antenna, a special type of antenna that is used to
directly convert microwave energy into DC electricity. Its elements are
usually arranged in a mesh pattern, giving it a distinct appearance from
most antennae.
Receiver consists of 2 components:
 Rectenna
 Sensor

10.
SENSORS
 The sensor circuitry is a simple circuit, which detects if the
mobile phone receives any message signal. This is required, as
the phone has to be charged as long as the user is talking. Thus a
simple F to V converter would serve our purpose.
 A simple yet powerful F to V converter is LM2907. Using LM2907
would greatly serve our purpose. It acts as a switch for triggering
the rectenna circuitry

11.
RECTENNA
 A rectifying antenna called a rectenna receives the
transmitted power and converts the microwave power to
direct current (DC) power.
 This demonstration rectenna consists of 6 rows of dipoles
antennas where 8 dipoles belong to each row. Each row is
connected to a rectifying circuit which consists of low pass
filters and a rectifier.
 The rectifier is a GaAs Schottky barrier diode that is
impedance matched to the dipoles by a low pass filter. The
diode rectifies the current induced in the antenna by the
microwaves.

12.
RECTENNA DESIGN
A simple rectenna element consists of a dipole antenna with an RF diode connected
across the dipole elements. The diode rectifies the AC current induced in the
antenna by the microwaves, to produce DC power, which powers a load connected
across the diode. Schottky diodes are usually used because they have the lowest
voltage drop and highest speed and therefore have the lowest power losses due to
conduction and switching. Large rectennas consist of an array of many such dipole
elements.

13.
ADVANTAGES
 Wireless energy transfer can potentially recharge the
mobile phones without chords.
 Only one microwave transmitter can serve to all the
service providers in that area.
 The need of different types of chargers by different
manufacturers is totally eliminated
 Saving electricity